Dearl McPeak

Advanced Electromagnetic Systems Engineer | Consultant | Inventor

Creator of the McPeak Traveling Wave (Triangle) Equation

Phase-Coherent Electronic Systems • Distributed EM Architectures • Advanced Detection & Power Systems

Professional Summary

An advanced systems engineer and inventor specializing in phase-coherent electromagnetic systems, time-domain signal behavior, and distributed electronic architectures. The original creator of the McPeak Traveling Wave (Triangle) Equation, a foundational method for analyzing and controlling electromagnetic systems using geometric time-phase relationships rather than classical gain or frequency only approaches.

Work spans government, defense, and advanced research environments and has contributed to new classes of electronic systems for detection, synchronization, energy routing, and distributed electromagnetic interaction. Publicly described application areas include long-range wireless energy and below-noise signal detection, actual contributions extend broadly across electronic system architecture and control.

The McPeak Traveling Wave (Triangle) Equation was originally created in 2012 as an independent theoretical and systems-level framework for phase-coherent electromagnetic behavior.

In 2022, related system concepts and applications were further developed and evaluated in collaboration with U.S. Government research programs and MIT Lincoln Laboratory.

Specific technical implementations and results from these engagements are not publicly disclosed and are discussed only under appropriate legal frameworks.

Core Technical Contributions

Phase-Coherent System Methods

Development of a time-domain, geometry-based framework for electromagnetic system analysis and control.
System level approaches that emphasize phase alignment, temporal structure, and coherence over raw amplification.

Advanced Detection & Measurement Systems

Architectures enabling deterministic signal extraction under conditions where conventional SNR-based techniques fail.
Contributions relevant to sensing, radar, communications, and signal intelligence systems.

Receiver & Front-End Electronic Architectures

Exploration of phase-first receiver concepts.
System designs that reduce dependence on gain-first chains and excessive noise accumulation.

Timing, Synchronization & Distributed Systems

Methods for achieving coherent operation across spatially distributed electronic nodes.
Alternatives to centralized clock-tree architectures using phase relationships and temporal geometry.

Power & Energy Systems

Electronic systems that recombine and route energy through controlled electromagnetic interaction.
Concepts applicable to both wireless and hybrid energy delivery architectures.

Control & Cyber-Physical Systems

Time-geometry-based control concepts
Predictive phase alignment and adaptive system behavior in complex environments

Selected Professional Experience

Advanced RF & Electromagnetic Systems Consultant

United States Government, Venture-backed start-ups & Research Institutions
(Engagement details available under NDA)

Designed and supported advanced electromagnetic and RF systems for government and defense applications
Provided specialized expertise in phase measurement, coherent detection, and system-level electromagnetic behavior.

Notable Technical Recognition

Original inventor of the McPeak Traveling Wave (Triangle) Equation
Recognized for priority contributions in phase-coherent electromagnetic system methods
Work acknowledged within government and research environments for enabling capabilities beyond classical system limits

Publicly Known Application Areas

(Representative, non-exhaustive)

Long-range electromagnetic energy transfer
Below-noise signal detection and analysis
Distributed sensing and measurement systems
Advanced RF and electromagnetic system architectures

Note: Specific implementations, mechanisms, and performance details are protected and disclosed only under appropriate legal agreements.

Professional Focus

Work focuses on expanding how electronic systems interact with time, phase, and geometry. The approach emphasizes foundational system behavior rather than isolated applications, enabling innovations across sensing, power, communications, and control domains

Engagement & Collaboration

Consulting, research collaboration, and technical advisory engagements are considered on a limited basis.

Detailed technical discussions are conducted under NDA or appropriate legal framework.

Legal & IP Notice

This website and its contents are intended to describe professional background and areas of expertise only.

No proprietary methods, algorithms, or enabling technical details are disclosed.

All inventions and technical concepts are protected under applicable intellectual property laws.

Contact

Email: admin[at]dearlmcpeak.com

Traveling Wave Superposition (Conceptual Visualization)

This animation illustrates the fundamental physical principle of linear wave superposition, where two traveling waves combine constructively and destructively over time.

Shown for conceptual and educational purposes only. This visualization does not depict any specific commercial system, hardware architecture, control algorithm, or proprietary implementation

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